Introduction to data Science Project by Group T:
- Adriano Chessa (201405297)
- Ana Pinto (202105085)
- Pedro Leitão (202107852)
Business Understanding¶
Objective: The primary goal is to build a machine learning model that predicts whether a customer has health insurance or not
Business Problem: Organizations need to identify factors influencing the adoption of health insurance and predict the likelihood of customers purchasing it. This can help in targeted marketing strategies or customer engagement initiatives.
Deliverables: A predictive model and insights into customer demographics, income, and other influencing factors.
Table of Contents:
Part 2: Dataset statistics and visualization - Data Understanding
- Part 2.4: Do you see differences in the income related to age, gender or the marital situation?
- Part 2.5: Are the characteristics of the housing situation interrelated?
- Part 2.7: Visualize the probability of health insurance by age?
- Part 2.8: Visualize the marital status according to the housing type?
- Part 2.9: How the health insurance distributes according to the marital status?
Part 3: Dataset optimization for each model & Correlation matrices
Part 0 library and data importation¶
import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import seaborn as sns
import geopandas as gpd
import plotly.express as px
from sklearn.preprocessing import MinMaxScaler, StandardScaler
from sklearn.decomposition import PCA
from sklearn.cluster import KMeans
from sklearn.impute import KNNImputer, SimpleImputer
from sklearn.model_selection import (
train_test_split, cross_val_score, GridSearchCV, RandomizedSearchCV, StratifiedKFold, KFold
)
from sklearn.neighbors import KNeighborsClassifier
from sklearn.naive_bayes import GaussianNB, BernoulliNB
from sklearn.tree import DecisionTreeClassifier, plot_tree
from sklearn.ensemble import RandomForestClassifier
from sklearn.svm import SVC
from sklearn.neural_network import MLPClassifier
from sklearn.metrics import (
f1_score, accuracy_score, precision_score, recall_score,
confusion_matrix, classification_report, roc_auc_score
)
from sklearn.inspection import permutation_importance
from sklearn.feature_selection import SelectKBest, chi2, f_classif, SelectFromModel, RFE
from sklearn.dummy import DummyClassifier
from tensorflow.keras.models import load_model
import tensorflow as tf
from imblearn.over_sampling import SMOTE
from imblearn.pipeline import Pipeline
from imblearn.under_sampling import RandomUnderSampler
from yellowbrick.model_selection import LearningCurve
from joblib import parallel_backend, Parallel, delayed
import pickle
from tensorflow.keras import layers, models, callbacks, optimizers, losses, metrics
from tensorflow.keras.callbacks import Callback
import xgboost
from xgboost import XGBClassifier
from sklearn.linear_model import LogisticRegression
#path to file
customer_df= pd.read_csv('customer.csv')
print(f'Shape: {customer_df.shape}\n')
print(f'{customer_df.columns}\n')
customer_df.head(3)
Shape: (72458, 15)
Index(['Unnamed: 0', 'custid', 'sex', 'is_employed', 'income',
'marital_status', 'health_ins', 'housing_type', 'num_vehicles', 'age',
'state_of_res', 'code_column', 'gas_usage', 'rooms', 'recent_move_b'],
dtype='object')
| Unnamed: 0 | custid | sex | is_employed | income | marital_status | health_ins | housing_type | num_vehicles | age | state_of_res | code_column | gas_usage | rooms | recent_move_b | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 0 | 7 | 000006646_03 | Male | True | 22000.0 | Never married | True | Homeowner free and clear | 0.0 | 24 | Alabama | 1047 | 210.0 | 3 | F |
| 1 | 8 | 000007827_01 | Female | NaN | 23200.0 | Divorced/Separated | True | Rented | 0.0 | 82 | Alabama | 1047 | 3.0 | 6 | T |
| 2 | 9 | 000008359_04 | Female | True | 21000.0 | Never married | True | Homeowner with mortgage/loan | 2.0 | 31 | Alabama | 1047 | 40.0 | 3 | F |
customer_df.info()
<class 'pandas.core.frame.DataFrame'> RangeIndex: 72458 entries, 0 to 72457 Data columns (total 15 columns): # Column Non-Null Count Dtype --- ------ -------------- ----- 0 Unnamed: 0 72458 non-null int64 1 custid 72458 non-null object 2 sex 72458 non-null object 3 is_employed 46943 non-null object 4 income 72458 non-null float64 5 marital_status 72458 non-null object 6 health_ins 72458 non-null bool 7 housing_type 70772 non-null object 8 num_vehicles 70772 non-null float64 9 age 72458 non-null int64 10 state_of_res 72458 non-null object 11 code_column 72458 non-null int64 12 gas_usage 70772 non-null float64 13 rooms 72458 non-null int64 14 recent_move_b 70771 non-null object dtypes: bool(1), float64(3), int64(4), object(7) memory usage: 7.8+ MB
print(f'Is NaN: \n{customer_df.isna().sum()}')
print(f'Number of duplicates: {customer_df.duplicated().sum()}')
print(f'Number of duplicated ids: {customer_df.duplicated(subset= "custid").sum()}')
Is NaN: Unnamed: 0 0 custid 0 sex 0 is_employed 25515 income 0 marital_status 0 health_ins 0 housing_type 1686 num_vehicles 1686 age 0 state_of_res 0 code_column 0 gas_usage 1686 rooms 0 recent_move_b 1687 dtype: int64 Number of duplicates: 0 Number of duplicated ids: 0
#skewness
skewness = round(customer_df.select_dtypes(include=['number']).skew(), 3)
#outliers
numeric_columns = customer_df.select_dtypes(include=['number'])
Q1 = numeric_columns.quantile(0.25)
Q3 = numeric_columns.quantile(0.75)
IQR = Q3 - Q1
outliers = (numeric_columns < (Q1 - 1.5 * IQR)) | (numeric_columns > (Q3 + 1.5 * IQR))
outliers_count = outliers.sum()
for column in numeric_columns.columns:
print(f"{column}:")
print(f"Outliers: {outliers_count[column]}")
print(f"Skewness: {skewness[column]}")
print()
Unnamed: 0: Outliers: 0 Skewness: 0.007 income: Outliers: 4512 Skewness: 4.873 num_vehicles: Outliers: 0 Skewness: 0.672 age: Outliers: 191 Skewness: 0.376 code_column: Outliers: 0 Skewness: 1.029 gas_usage: Outliers: 4595 Skewness: 3.031 rooms: Outliers: 0 Skewness: 0.006
Summary of Observations:¶
- The Income and Gas Usage variables exhibit very high positive skewness values, suggesting that these variables have long tails with a few extreme values.
- Age and Num_Vehicles show relatively mild skewness, but age has notable outliers that should be examined further.
Part 1: Pre-Processing ¶
- Data Pre-Processing: To clean, transform and rectify data types.
- Summary of the Data: To understand the data, checking for duplicates and missing values.
customer_df[['Unnamed: 0', 'custid', 'code_column', 'state_of_res']].sample(3)
| Unnamed: 0 | custid | code_column | state_of_res | |
|---|---|---|---|---|
| 54722 | 75295 | 000236520_02 | 2997 | Pennsylvania |
| 60723 | 83395 | 000106826_02 | 6026 | Texas |
| 28928 | 39926 | 001301727_01 | 935 | Kentucky |
customer_df.drop(columns= ['Unnamed: 0', 'code_column'], inplace= True)
Column: 'is_employed'¶
- dtype is logical as per dictionary
- NaN refers to people not in workforce so it will be converted into False to keep the whole variable as Boolean
customer_df['is_employed'].unique()
array([True, nan, False], dtype=object)
customer_df['is_employed']= customer_df['is_employed'].fillna(False)
C:\Users\chess\AppData\Local\Temp\ipykernel_38716\2821843629.py:1: FutureWarning: Downcasting object dtype arrays on .fillna, .ffill, .bfill is deprecated and will change in a future version. Call result.infer_objects(copy=False) instead. To opt-in to the future behavior, set `pd.set_option('future.no_silent_downcasting', True)`
customer_df['is_employed']= customer_df['is_employed'].fillna(False)
customer_df['is_employed']= customer_df['is_employed'].astype(bool)
Column: 'income'¶
- Negative values converted into 0
- data transformed with log transformation as it is highly skewed so it better fits the data distribution
customer_df['income'] = customer_df['income'].apply(lambda x: max(x, 0))
customer_df['log_income'] = np.log1p(customer_df['income'])
#computes ln(1+𝑥)ln(1+x), which is safer for small or zero values of x since:ln
#(1+0)=0 while np.log(0) would result in a math error or -inf.
Column: 'marital_status', 'state_of_res', 'rooms', 'health_ins', 'Sex', 'housing_type'¶
- No action taken
Column: 'housing_type'¶
- dtype is string
- 1686 missing values no explanation given in dictionary
Column: 'recent_move_b'¶
- converted from object into boolean
customer_df['recent_move_b']= customer_df['recent_move_b'].replace({'F': False, 'T': True})
customer_df['recent_move_b']= customer_df['recent_move_b'].astype(bool)
Column: 'num_vehicles'¶
- converted from float to interger as we are talking about entire vehicles
- unsure what to do with missing values
customer_df['num_vehicles'].astype('Int64') # Int64 special integer type in pandas that supports NaN values
0 0
1 0
2 2
3 1
4 2
...
72453 1
72454 1
72455 2
72456 1
72457 <NA>
Name: num_vehicles, Length: 72458, dtype: Int64
Column: 'gas_usage'¶
- After checking that all entries that had no value for gas usage were the same that had none for num_vehicles, it was possible to assume that no useful information came from these entries even when the dictionary claimed for gas_usage that 'NaN' could represent Not aplicable cases, therefore the best approcah was to drop the entries that represented only 2.33% of the total entries
customer_df_NAS= customer_df[customer_df['gas_usage'].isna()].copy()
customer_df_NAS.sample(5)
| custid | sex | is_employed | income | marital_status | health_ins | housing_type | num_vehicles | age | state_of_res | gas_usage | rooms | recent_move_b | log_income | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 8513 | 000891894_01 | Female | False | 8800.0 | Never married | True | NaN | NaN | 55 | California | NaN | 4 | True | 9.082621 |
| 33084 | 001189096_01 | Male | False | 0.0 | Never married | True | NaN | NaN | 39 | Massachusetts | NaN | 5 | True | 0.000000 |
| 2985 | 000654268_01 | Male | False | 10400.0 | Widowed | True | NaN | NaN | 53 | Arkansas | NaN | 3 | True | 9.249657 |
| 2369 | 001158946_01 | Female | False | 19200.0 | Widowed | True | NaN | NaN | 85 | Arizona | NaN | 5 | True | 9.862718 |
| 53410 | 000141194_01 | Female | False | 4700.0 | Married | True | NaN | NaN | 68 | Oregon | NaN | 6 | True | 8.455531 |
customer_df.isna().sum()
custid 0 sex 0 is_employed 0 income 0 marital_status 0 health_ins 0 housing_type 1686 num_vehicles 1686 age 0 state_of_res 0 gas_usage 1686 rooms 0 recent_move_b 0 log_income 0 dtype: int64
customer_df.dropna(subset=['gas_usage'], inplace=True)
Column: 'age'¶
- "0" refers to cases where age is unknown
- Dropping cases that are most likely referring to deceased people (109 maximum for men, 115 maximum for women) as per https://www.prb.org/resources/age-100-and-counting/
- Filling the "0" values with NaN values and then data inputation done based on Knn model.
customer_df.drop(customer_df[(customer_df['sex'] == 'Male') & (customer_df['age'] > 111) |
(customer_df['sex'] == 'Female') & (customer_df['age'] > 112)].index, inplace= True)
customer_df['age']= customer_df['age'].replace(0, np.nan)
features = customer_df[['income', 'num_vehicles', 'gas_usage', 'rooms', 'age']]
mask_age_zero = customer_df['age'].isna()
imputer = KNNImputer(n_neighbors= 5)
imputer.fit(features[~mask_age_zero])
features_imputed = features.copy()
features_imputed[mask_age_zero] = imputer.transform(features[mask_age_zero])
customer_df['age'] = features_imputed['age'].round().astype('Int64')
Data transformations:¶
- Creating a variable that groups the date range into young, middle-aged and senior
- Defining age groups based on American nomenclature as per https://www.britannica.com/science/middle-age
- Grouping the states of residence of each entry by the region as per https://study.com/academy/lesson/what-are-the-regions-of-the-united-states.html
def categorize_age(age):
if age < 40:
return 'Young'
elif 40 <= age < 65:
return 'Middle-aged'
else:
return 'Senior'
customer_df['age_group'] = customer_df['age'].apply(categorize_age)
customer_df.info()
<class 'pandas.core.frame.DataFrame'> Index: 70649 entries, 0 to 72456 Data columns (total 15 columns): # Column Non-Null Count Dtype --- ------ -------------- ----- 0 custid 70649 non-null object 1 sex 70649 non-null object 2 is_employed 70649 non-null bool 3 income 70649 non-null float64 4 marital_status 70649 non-null object 5 health_ins 70649 non-null bool 6 housing_type 70649 non-null object 7 num_vehicles 70649 non-null float64 8 age 70649 non-null Int64 9 state_of_res 70649 non-null object 10 gas_usage 70649 non-null float64 11 rooms 70649 non-null int64 12 recent_move_b 70649 non-null bool 13 log_income 70649 non-null float64 14 age_group 70649 non-null object dtypes: Int64(1), bool(3), float64(4), int64(1), object(6) memory usage: 7.3+ MB
def assign_region(state):
northeast = ['Connecticut', 'Maine', 'Massachusetts', 'New Hampshire', 'Rhode Island',
'Vermont', 'New Jersey', 'New York', 'Pennsylvania']
midwest = ['Illinois', 'Indiana', 'Iowa', 'Kansas', 'Michigan', 'Minnesota', 'Missouri',
'Nebraska', 'North Dakota', 'Ohio', 'South Dakota', 'Wisconsin']
south = ['Alabama', 'Arkansas', 'Delaware', 'Florida', 'Georgia', 'Kentucky', 'Louisiana',
'Maryland', 'Mississippi', 'North Carolina', 'Oklahoma', 'South Carolina',
'Tennessee', 'Texas', 'Virginia', 'West Virginia', 'Washington D.C.', 'District of Columbia']
west = ['Alaska', 'Arizona', 'California', 'Colorado', 'Hawaii', 'Idaho', 'Montana',
'Nevada', 'New Mexico', 'Oregon', 'Utah', 'Washington', 'Wyoming']
if state in northeast:
return 'Northeast'
elif state in midwest:
return 'Midwest'
elif state in south:
return 'South'
elif state in west:
return 'West'
else:
return 'Unknown'
customer_df['residence_region'] = customer_df['state_of_res'].apply(assign_region)
Part 2: Dataset statistics and visualization - Data Understanding¶
2.0: General ¶
#skewness
skewness = round(customer_df.select_dtypes(include=['number']).skew(), 3)
#outliers
numeric_columns = customer_df.select_dtypes(include=['number'])
Q1 = numeric_columns.quantile(0.25)
Q3 = numeric_columns.quantile(0.75)
IQR = Q3 - Q1
outliers = (numeric_columns < (Q1 - 1.5 * IQR)) | (numeric_columns > (Q3 + 1.5 * IQR))
outliers_count = outliers.sum()
for column in numeric_columns.columns:
print(f"{column}:")
print(f"Outliers: {outliers_count[column]}")
print(f"Skewness: {skewness[column]}")
print()
income: Outliers: 4511 Skewness: 4.853 num_vehicles: Outliers: 0 Skewness: 0.671 age: Outliers: 64 Skewness: 0.318 gas_usage: Outliers: 4587 Skewness: 3.032 rooms: Outliers: 0 Skewness: 0.006 log_income: Outliers: 7181 Skewness: -2.347
round(customer_df.describe(), 2)
| income | num_vehicles | age | gas_usage | rooms | log_income | |
|---|---|---|---|---|---|---|
| count | 70649.00 | 70649.00 | 70649.0 | 70649.00 | 70649.00 | 70649.00 |
| mean | 42641.66 | 2.07 | 49.15 | 41.24 | 3.49 | 9.34 |
| std | 58655.81 | 1.17 | 17.65 | 63.16 | 1.71 | 3.08 |
| min | 0.00 | 0.00 | 21.0 | 1.00 | 1.00 | 0.00 |
| 25% | 11300.00 | 1.00 | 34.0 | 3.00 | 2.00 | 9.33 |
| 50% | 27500.00 | 2.00 | 48.0 | 10.00 | 3.00 | 10.22 |
| 75% | 52100.00 | 3.00 | 62.0 | 60.00 | 5.00 | 10.86 |
| max | 1257000.00 | 6.00 | 110.0 | 570.00 | 6.00 | 14.04 |
customer_df_numeric= customer_df[['income','num_vehicles','age', 'gas_usage', 'rooms', 'log_income']].copy()
numeric_columns = customer_df.select_dtypes(include=['number'])
plt.figure(figsize= (15, 8))
for i, column in enumerate(numeric_columns , 1):
plt.subplot(2, 3, i)
sns.violinplot(y= numeric_columns[column],
color= '#009000')
plt.title(column)
plt.grid(True, linestyle='--', axis= 'y', color='gray')
plt.tight_layout()
plt.show()
plt.figure(figsize=(15, 8))
for i, column in enumerate(numeric_columns, 1):
plt.subplot(2, 3, i)
numeric_columns[column].plot(kind='hist', color='#007000', zorder=2)
plt.title(column)
plt.grid(False)
plt.grid(True, linestyle='--', axis='y', color='gray')
plt.tight_layout()
plt.show()
2.1: Are they young, middle-aged, or seniors? ¶
- As per the pie chart presented bellow it is possible to see that the distribution of this dataset is 44.7% Middle-aged subjects, 34.2% Young and 21.1% are Seniors
fig, axes = plt.subplots(1, 3, figsize=(16, 10))
#Housing Type
category_counts = customer_df['housing_type'].value_counts()
axes[0].pie(category_counts, labels=category_counts.index, autopct='%1.1f%%', startangle=90,
colors = ['#f4a582', '#92c5de', '#b2182b', '#808080', '#2166ac'])
axes[0].set_title('Distribution of Housing Type')
#Maritial status
category_counts = customer_df['marital_status'].value_counts()
axes[1].pie(category_counts, labels=category_counts.index, autopct='%1.1f%%', startangle=90,
colors=['#ff9999', '#66b3ff', '#99ff99', '#808080'])
axes[1].set_title('Distribution of Marital Status')
#Age group
category_counts = customer_df['age_group'].value_counts()
axes[2].pie(category_counts, labels=category_counts.index, autopct='%1.1f%%', startangle=90,
colors = ['#FF9933', '#66B2FF', '#99FF99'])
axes[2].set_title('Distribution of Age')
plt.tight_layout()
plt.show()
2.2: How affluent are they? ¶
- The violinplots shows that individuals with health insurance generally have higher log-transformed incomes, and this trend is consistent across the different age groups.
- Individuals without health insurance show higher variability and are more likely to have lower incomes.
sns.violinplot(data=customer_df,
x='age_group',
y='log_income',
hue='health_ins',
split=True,
palette= ['#880000','#008800'])
plt.legend(loc='upper right', bbox_to_anchor=(1.3, 1), title='Health Insurance')
plt.title('Log income by age group and health insurance')
plt.grid(True, linestyle='--', axis='y', color='gray')
plt.show()
2.3: Where do they live? ¶
- The entries of the dataset appear to be distributed throught the country with the South being the biggest representation with 37.7% of the entries, followed by West with 23.8%, Midwest with 20.9% and Northwest with 17.7%.
- The state with the more counts was California with 8672 followed by Texas with 5806 and Florida with 4820
usa = gpd.read_file('110m_cultural/ne_110m_admin_1_states_provinces.shp')
residence_counts = customer_df['state_of_res'].value_counts().reset_index()
residence_counts.columns = ['name', 'residence_count']
merged_df= usa.merge(residence_counts, right_on= 'name', left_on= 'name')
fig = px.choropleth(
merged_df,
locations='postal',
locationmode="USA-states",
color='residence_count',
color_continuous_scale='OrRd',
scope="usa",
labels={'residence_count': 'Number of Residences'},
title='Heatmap of Customer Distribution'
)
fig.update_layout(
title_text='Interactive Heatmap of Customer Distribution',
width=800,
height=500,
geo=dict(
showcoastlines=True,
coastlinecolor="Black",
)
)
fig.show()
category_counts = customer_df['residence_region'].value_counts()
plt.pie(category_counts, labels=category_counts.index, autopct='%1.1f%%', startangle=90,
colors = ['#FF6F61', '#00A9E0', '#DAA520', '#228B22'])
plt.title('Distribution of residence')
Text(0.5, 1.0, 'Distribution of residence')
2.4: Do you see differences in the income related to age, gender or the marital situation?¶
fig, axes = plt.subplots(1, 2, figsize=(16, 6))
sns.violinplot(data=customer_df, x='age_group', y='log_income', hue='sex', split=True, ax=axes[0])
axes[0].set_title('Log Income by Age Group and Sex')
axes[0].set_xlabel('Age Group')
axes[0].set_ylabel('Log Income')
axes[0].legend(loc='upper right', bbox_to_anchor=(1.2, 1))
axes[0].grid(True, linestyle='--', axis='y', color='gray')
sns.violinplot(data=customer_df, x='marital_status', y='log_income', hue='sex', split=True, ax=axes[1])
axes[1].set_title('Log Income by Marital Status and Sex')
axes[1].set_xlabel('Marital Status')
axes[1].set_ylabel('Log Income')
axes[1].tick_params(axis='x', rotation=30)
axes[1].legend(loc='upper right', bbox_to_anchor=(1.2, 1))
axes[1].grid(True, linestyle='--', axis='y', color='gray')
plt.tight_layout()
plt.show()
2.5: Are the characteristics of the housing situation interrelated?¶
average_gas_usage_per_room_and_type = (
customer_df.groupby(['housing_type', 'rooms'])['gas_usage']
.mean()
.reset_index())
average_gas_usage_per_room_and_type.columns = ['housing_type', 'rooms', 'average_gas_usage']
customer_df_experiment = customer_df.merge(average_gas_usage_per_room_and_type, on=['housing_type', 'rooms'], how='left')
plt.figure(figsize=(12, 6))
sns.lineplot(data=average_gas_usage_per_room_and_type,
x='rooms',
y='average_gas_usage',
hue='housing_type',
marker='o')
plt.title('Average Gas Usage per Room by Housing Type')
plt.xlabel('Number of Rooms')
plt.ylabel('Average Gas Usage ($)')
plt.legend(loc='upper right', bbox_to_anchor=(1.32, 1), title='Housing Type')
plt.xticks()
plt.show()
From the line plot above the following can be observed:
- Homeowners, especially those with a mortgage/loan, have higher gas usage than renters or non-paying occupants, potentially due to larger homes or higher energy needs.
- Rented housing shows the lowest and most consistent gas usage, potentially reflecting smaller homes or stricter energy usage habits.
- Occupied with no rent has inconsistent trends.
2.6: What is the relation between age and income?¶
#customer_df_young= customer_df[customer_df['age_group'] == 'Young']
plt.figure(figsize=(10, 6))
sns.kdeplot(
x= customer_df['age'],
y= customer_df['log_income'],
fill= True,
#size= 'income',
cmap= 'OrRd',
legend= True
#sizes= (0, 2000),
#alpha= 0.5
)
plt.title('Age vs Log income kde plot')
plt.show()
# Averaging the income per age
average_income_by_age = (
customer_df.groupby('age')['income']
.mean()
.reset_index())
average_income_by_age.columns = ['age', 'average income']
plt.figure(figsize=(12, 6))
sns.lineplot(data=average_income_by_age,
x='age',
y='average income',
marker='o',
color= '#008800')
plt.title('Average Income per Age')
plt.xlabel('Age')
plt.ylabel('Average Income')
plt.xticks()
plt.grid(True, linestyle='--', color='gray')
plt.show()
From the line plot above the following can be observed:
- Average income increases over the years and peak during midlife followed by a decline in later years. The slight increase after age 90 might be caused by small sample sizes in older age groups.
2.7: Visualize the probability of health insurance by age¶
health_insurance_prob_by_age = (
customer_df.groupby('age')['health_ins']
.mean()
.reset_index()
)
health_insurance_prob_by_age.columns = ['age', 'health_insurance_probability']
plt.figure(figsize=(12, 6))
sns.regplot(data=health_insurance_prob_by_age, x='age', y='health_insurance_probability', logistic=True, ci= 95,
scatter_kws={'color': '#0055cc'},
line_kws={'alpha': 0.6, 'color': 'red'})
plt.title('Probability of Health Insurance by Age')
plt.xlabel('Age')
plt.ylabel('Probability of Health Insurance')
plt.xticks()
handles = [
plt.Line2D([0], [0], color='red', lw=2, label='Regression Line (95% CI)')
]
plt.legend(handles=handles, loc='upper left', bbox_to_anchor=(1, 1))
plt.grid(True, linestyle='--', color='gray', zorder= 1)
plt.show()
From the plot above the following can be observed:
- The probability of health insurance appears to increase with age
- The increase is steepest between ages 20 and 50, then starts to level off as the probability approaches 1.0 in older age groups.
- The 95% CI is wider for younger ages, indicating more uncertainty about the relationship there, and narrows for middle-aged and older individuals.
- Individuals older than 60 have a probability close to 1 of ahaving health insurance
2.8: Visualize the marital status according to the housing type¶
plt.figure(figsize=(14, 6))
sns.countplot(data=customer_df, x='housing_type', hue='marital_status', zorder= 2)
plt.title('Marital Status by Housing Type')
plt.xlabel('Housing Type')
plt.ylabel('Count')
plt.xticks()
plt.legend(loc='upper right', bbox_to_anchor=(1.2, 1), title='Marital Status')
plt.grid(True, linestyle='--', axis= 'y', color='gray')
plt.tight_layout()
From the bar plot above the following can be observed:
- In all categories, with exeption to housing type "rented", the Married status appears to be the most common status which by far comprises the highest entry count.
2.9: How the health insurance distributes according to the marital status?¶
insurance_distribution = customer_df.groupby(['marital_status', 'health_ins']).size().unstack(fill_value=0)
insurance_distribution.plot(kind='bar', stacked=True, color=['#900000','#009000'], zorder= 2)
plt.title('Health Insurance Distribution by Marital Status')
plt.xlabel('Marital Status')
plt.ylabel('Number of Individuals')
plt.xticks(rotation=30)
plt.legend(loc='upper right', bbox_to_anchor=(1.42, 1), title='Health Insurance')
plt.grid(True, linestyle='--', color='gray')
plt.tight_layout()
plt.show()
From the bar plot above the following can be observed:
- Across all marital statuses, having health insurance seems to be the more common case.
- The highest count of individuals without health insurance appears to be among those who are "never married."
Part 3: Dataset optimization for each model & Correlation matrices ¶
Part 3.1: Standardization and one hot encoding ¶
# all columns
# Sort the columns by the number of unique values
customer_df = customer_df.sample(frac=1)
one_hot_encoded_df= pd.get_dummies(customer_df, columns=['sex', 'marital_status', 'housing_type',
'residence_region', 'age_group'], drop_first=True)
scaler = StandardScaler()
variables_to_standardize = ['income', 'num_vehicles', 'age', 'gas_usage', 'rooms', 'log_income']
one_hot_standard_df = one_hot_encoded_df
one_hot_standard_df[variables_to_standardize] = scaler.fit_transform(one_hot_standard_df[variables_to_standardize])
standardized_numerical_df = pd.DataFrame(
scaler.fit_transform(customer_df[variables_to_standardize]),
columns=variables_to_standardize,
index=customer_df.index
)
categorical_df = customer_df[['sex', 'marital_status', 'housing_type', 'residence_region', 'age_group', 'health_ins', "custid"]]
standard_df = pd.concat([standardized_numerical_df, categorical_df], axis=1)
print(one_hot_standard_df.describe())
income num_vehicles age gas_usage rooms \
count 7.064900e+04 7.064900e+04 7.064900e+04 7.064900e+04 7.064900e+04
mean -1.508605e-17 -1.913916e-16 -5.692468e-17 1.272257e-17 -2.413767e-18
std 1.000007e+00 1.000007e+00 1.000007e+00 1.000007e+00 1.000007e+00
min -7.269861e-01 -1.766690e+00 -1.594462e+00 -6.370135e-01 -1.461902e+00
25% -5.343355e-01 -9.119458e-01 -8.580133e-01 -6.053495e-01 -8.759654e-01
50% -2.581461e-01 -5.720153e-02 -6.491457e-02 -4.945257e-01 -2.900284e-01
75% 1.612527e-01 7.975427e-01 7.281841e-01 2.970730e-01 8.818456e-01
max 2.070327e+01 3.361776e+00 3.447380e+00 8.371380e+00 1.467783e+00
log_income
count 7.064900e+04
mean -2.045668e-16
std 1.000007e+00
min -3.035118e+00
25% -1.015779e-03
50% 2.881113e-01
75% 4.958418e-01
max 1.530753e+00
abbr = ["Cust id", "Is Employed", "Income", "Health Ins" ,"Num Vehicles", "Age", "Gas Usage", "Rooms", "Recent Move", "Log Income", "Male", "Married", "Never Married", "Widowed", "Homeower w/ Mortgage/Loan", "Occupied w/ no rent", "Rented", "North East", "South", "West", "Senior", "Young"]
one_hot_standard_df_aux = one_hot_standard_df.drop(["state_of_res"], axis=1)
correlation_matrix_all = one_hot_standard_df_aux.corr()
health_ins_true = one_hot_standard_df_aux[one_hot_standard_df_aux['health_ins'] == 1]
health_ins_false = one_hot_standard_df_aux[one_hot_standard_df_aux['health_ins'] == 0]
relevant_cols = ['health_ins'] + [col for col in one_hot_standard_df_aux.columns if col != 'health_ins' and abs(correlation_matrix_all['health_ins'][col]) > 0.1]
Part 3.2: Correlation matrices ¶
correlation_matrix_abbr = correlation_matrix_all.copy()
correlation_matrix_abbr.columns = abbr
correlation_matrix_abbr.index = abbr
mask = np.triu(np.ones_like(correlation_matrix_abbr, dtype=bool))
plt.figure(figsize=(13, 11))
sns.heatmap(correlation_matrix_abbr,
cmap='flare',
square=True,
cbar=True,
annot=True,
fmt='.2f',
mask=mask,
linewidths=0.5,
linecolor='white')
plt.show()
relevant_cols = ['health_ins'] + [col for col in one_hot_standard_df_aux.columns if col != 'health_ins' and abs(correlation_matrix_all['health_ins'][col]) > 0.1]
relevant_df = one_hot_standard_df[relevant_cols]
relevant_corr = relevant_df.corr()
mask = np.triu(np.ones_like(relevant_corr, dtype=bool))
plt.figure(figsize=(12, 10))
sns.heatmap(relevant_corr,
cmap='flare',
square=True,
cbar=True,
annot=True,
fmt='.2f',
mask=mask,
linewidths=0.5,
linecolor='white')
plt.title('Correlation Matrix - Health Ins')
plt.show()
health_ins_true_corr = health_ins_true[relevant_cols].corr()
health_ins_false_corr = health_ins_false[relevant_cols].corr()
fig, (ax1, ax2) = plt.subplots(1, 2, figsize=(16, 7))
mask = np.triu(np.ones_like(health_ins_true_corr, dtype=bool))
sns.heatmap(health_ins_true_corr,
cmap='flare',
square=True,
cbar=True,
annot=True,
fmt='.2f',
mask=mask,
linewidths=0.5,
linecolor='white',
ax=ax1)
ax1.set_title('Correlation Matrix - Health Ins = True')
ax1.grid(False)
mask = np.triu(np.ones_like(health_ins_false_corr, dtype=bool))
sns.heatmap(health_ins_false_corr,
cmap='flare',
square=True,
cbar=True,
annot=True,
fmt='.2f',
mask=mask,
linewidths=0.5,
linecolor='white',
ax=ax2,
xticklabels=False,
yticklabels=False)
ax2.set_title('Correlation Matrix - Health Ins = False')
plt.show()
When health_ins is set to True (Left heatmap):
- The variable with the highest positive correlation is log_income (0.45).
- The variables with the highest negative correlations are marital_status_Never married (-0.62) and age_group_Young (-0.38).
When health_ins is set to False (Right heatmap):
- The variables with the highest positive correlations are income (0.53) and marital_status_Married (0.18).
- The variables with the highest negative correlations are marital_status_Never married (-0.67), housing_type_Rented (-0.64), and age_group_Young (-0.14).
In general, the variables related to income (income, log_income), marital status (marital_status_Married, marital_status_Never married) and age group (age_group_Senior, age_group_Young) show the highest correlations, both positive and negative, with the ‘health_ins’ variable of interest.
We can therefore conclude that socioeconomic and demographic factors are strongly associated with health insurance ownership, particularly income, marital status and age group.
Part 4: Feature Selection and SMOTE ¶
Part 4.1: Feature Selection using KBest ¶
X= one_hot_standard_df.drop(columns= ['health_ins', 'custid', 'income', 'state_of_res'], axis= 1)
y= one_hot_standard_df.health_ins
To select the best features, we did 3 methods to see the 10 features with more apperances.
# Select the best features
k_best_f = SelectKBest(score_func=f_classif, k='all')
fit_f = k_best_f.fit(X, y)
feature_scores = pd.DataFrame({
'Feature': X.columns,
'F Score': fit_f.scores_,
'P-value': fit_f.pvalues_
})
# Sort the features based on the F Score
feature_scores = feature_scores.sort_values('F Score', ascending=False)
plt.figure(figsize=(12, 6))
plt.bar(feature_scores['Feature'][:10], feature_scores['F Score'][:10], color= '#990000')
plt.xticks(rotation=45, ha='right')
plt.title('Top 10 Features based on the k Best')
plt.ylabel('F Score')
plt.tight_layout()
plt.show()
Part 4.2: Feature Selection using Random Forest ¶
#Feature Importance with Random Forest
rf = RandomForestClassifier(n_estimators=100, random_state=42)
rf.fit(X, y)
feature_importance = pd.DataFrame({
'feature': X.columns,
'importance': rf.feature_importances_
}).sort_values('importance', ascending=False)
plt.figure(figsize=(10,6))
sns.barplot(x='importance', y='feature', data=feature_importance.head(10))
plt.title('Top 10 Features with Random Forest')
plt.show()
Part 4.3: Feature Selection using RFE ¶
# Select the best features using RFE
rfe_selector = RFE(estimator=LogisticRegression(), n_features_to_select=10)
rfe_selector = rfe_selector.fit(X, y)
selected_features = X.columns[rfe_selector.support_]
importances = np.abs(rfe_selector.estimator_.coef_[0])
selected_features_df = pd.DataFrame({
'Feature': selected_features,
'Importance': importances
}).sort_values(by='Importance', ascending=False)
plt.figure(figsize=(10, 6))
plt.bar(selected_features_df['Feature'], selected_features_df['Importance'], color='skyblue')
plt.xlabel('Features', fontsize=12)
plt.ylabel('Importance', fontsize=12)
plt.title('Top Features Selected by RFE', fontsize=14)
plt.xticks(rotation=45, ha='right')
plt.tight_layout()
plt.show()
With the results, we select this features: "log_income" "age" "gas_usage" "rooms" "num_vehicles" "sex_Male" "recent_move_b" "is_employed" "marital_status_Married" "residence_region_South"
Part 4.4: SMOTE ¶
Now we need to see the distribuition of the atual dataset:
distribution = one_hot_encoded_df['health_ins'].value_counts()
distribution_df = distribution.reset_index()
distribution_df.columns = ['Class', 'Count']
distribution_df['Class'] = pd.Categorical(distribution_df['Class'], categories=[False, True], ordered=True)
plt.figure(figsize=(6, 4))
sns.barplot(x='Class', y='Count', data=distribution_df, order=[False, True])
plt.xticks(rotation=0)
plt.title("Class Distribution of 'health_ins'")
plt.xlabel("Class")
plt.ylabel("Count")
for i, v in enumerate(distribution_df.sort_values('Class')['Count']):
plt.text(i, v + 500, f"{v / distribution.sum() * 100:.2f}%", ha='center') # Ajuste vertical
plt.show()
The imbalance of the dataset is evident, with the majority of entries having health insurance. This imbalance is likely to affect the performance of the model, as it will be biased towards predicting that most entries have health insurance.
To balance the data, we used the Synthetic Minority Over-sampling Technique (SMOTE).¶
- The SMOTE algorithm generates synthetic samples of the minority class by interpolating between existing samples.
pipeline = Pipeline([
('smote', SMOTE(random_state=42)),
])
X_resampled, y_resampled = pipeline.fit_resample(X, y)
Now we did a train test split with the new dataset (balanced) and with the older one, to test some models with this two configurations.
To test with the older dataset (imbalanced) we will use the train set already with SMOTE, but the test_set will be imbalanced.
X_train, X_val, y_train, y_val = train_test_split(X_resampled, y_resampled, test_size=0.3, random_state= 8)
X_train_aux, X_val_no_SMOTE, y_train_aux, y_val_no_SMOTE= train_test_split(X, y, test_size=0.3, random_state= 8)
y_resampled_distribution = y_resampled.value_counts()
plt.figure(figsize=(6, 4))
sns.barplot(x=y_resampled_distribution.index, y=y_resampled_distribution.values, color='red')
plt.xticks(rotation=45)
plt.title("Class Distribution of 'y_resampled'")
plt.xlabel("Class")
plt.ylabel("Count")
for i, v in enumerate(y_resampled_distribution.values):
plt.text(i, v + 5, f"{y_resampled_distribution[i] / y_resampled_distribution.sum() * 100:.2f}%", ha='center')
plt.show()
C:\Users\chess\AppData\Local\Temp\ipykernel_38716\3647028102.py:14: FutureWarning: Series.__getitem__ treating keys as positions is deprecated. In a future version, integer keys will always be treated as labels (consistent with DataFrame behavior). To access a value by position, use `ser.iloc[pos]`
This is the class distribution after SMOTE.
Imbalanced --- SMOTE ---> Balanced
Part 5: Models / Experimentation¶
In this fase, we evaluated a variety of machine learning models to identify the most effective approach for the given task. The following algorithms were tested: K-Nearest Neighbors,two types of Naive Bayes- GaussianNB and BernoulliNB, Decision Trees, Random Forest, XGBoost, Support Vector Machine (SVM), a neural network of the Multi-Layer Perceptron (MLP) type and we experimented a meta-model approach combining two diferent neural network models.
To ensure robust results, we employed cross-validation techniques and optimized hyperparameters using Grid-Search whenever feasible. When Grid Search was computationally impractical or time-consuming, Random Search was utilized as an efficient alternative.
The following sections present the results obtained for each model, highlighting their performance, comparisons, and the selected hyperparameters throughout the process.
Finally, we used the test dataset with SMOTE (balanced) because we wanted to achieve results more comparable to those obtained on Kaggle.
Dummy classifier¶
To establish a baseline, we used a Dummy Classifier using test set with and without SMOTE.
dummy_clf = DummyClassifier(strategy="most_frequent", random_state=42)
dummy_clf.fit(X_train, y_train)
y_pred = dummy_clf.predict(X_val)
y_pred_no_SMOTE = dummy_clf.predict(X_val_no_SMOTE)
accuracy = accuracy_score(y_val, y_pred)
accuracy_no_SMOTE = accuracy_score(y_val_no_SMOTE, y_pred_no_SMOTE)
f1 = f1_score(y_val, y_pred)
f1_no_SMOTE= f1_score(y_val_no_SMOTE, y_pred_no_SMOTE)
print(f"Accuracy do Dummy Classifier balanced (most_frequent): {accuracy:.2f}")
print(f"F1-Score do Dummy Classifier balanced (most_frequent): {f1:.2f}")
print(f"F1-Score do Dummy Classifier imbalanced (most_frequent): {f1_no_SMOTE:.2f}")
print(f"Accuracy do Dummy Classifier imbalanced (most_frequent): {accuracy_no_SMOTE:.2f}")
Accuracy do Dummy Classifier balanced (most_frequent): 0.50 F1-Score do Dummy Classifier balanced (most_frequent): 0.66 F1-Score do Dummy Classifier imbalanced (most_frequent): 0.95 Accuracy do Dummy Classifier imbalanced (most_frequent): 0.91
Selecting the 10 best feautes for the next models.
best_features = ["log_income", "age", "gas_usage", "rooms",
"num_vehicles", "sex_Male", "recent_move_b",
"is_employed", "marital_status_Married",
"residence_region_South"]
X_val = X_val[best_features]
X_val_no_SMOTE = X_val_no_SMOTE[best_features]
X_resampled_one_hot_stan = X_train[best_features]
y_resampled = y_train
5.1: KNN ¶
knn_balanced_one_hot_stan = KNeighborsClassifier(weights='distance')
n_neighbors = list(range(3, 21, 2))
metric = ['euclidean', 'manhattan', 'chebyshev']
param_grid = {'n_neighbors': n_neighbors, 'metric': metric}
# Stratified Cross-Validation
cv = StratifiedKFold(n_splits=10, shuffle=True, random_state=42)
# Grid Search
knn_balanced_one_hot_stan = GridSearchCV(
knn_balanced_one_hot_stan, param_grid, cv=cv, scoring='f1_weighted', verbose=2
)
knn_balanced_one_hot_stan.fit(X_resampled_one_hot_stan, y_resampled)
print(f"Best params with balanced data: {knn_balanced_one_hot_stan.best_params_}")
print(f"Cross-validation best F1-score with balanced data: {knn_balanced_one_hot_stan.best_score_:.2f}")
Fitting 10 folds for each of 27 candidates, totalling 270 fits
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=5; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=euclidean, n_neighbors=9; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 1.1s
[CV] END ...................metric=euclidean, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.6s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.7s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.6s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=euclidean, n_neighbors=19; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.5s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.6s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=manhattan, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=7; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ....................metric=manhattan, n_neighbors=9; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=11; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=13; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=15; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=17; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.3s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.4s
[CV] END ...................metric=manhattan, n_neighbors=19; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=3; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.8s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.8s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=5; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=7; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.5s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.4s
[CV] END ....................metric=chebyshev, n_neighbors=9; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=11; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=13; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.4s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=15; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=17; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.6s
[CV] END ...................metric=chebyshev, n_neighbors=19; total time= 0.5s
Best params with balanced data: {'metric': 'euclidean', 'n_neighbors': 11}
Cross-validation best F1-score with balanced data: 0.83
with open('knn_balanced_model_one_hot_stan.pkl', 'wb') as model_file:
pickle.dump(knn_balanced_one_hot_stan, model_file)
print("Saved in pickle.")
Saved in pickle.
# Create a figure and axis
fig, ax = plt.subplots(figsize=(6, 4))
# Use StratifiedKFold with 12 splits
cv = StratifiedKFold(n_splits=12)
# Define training sizes
sizes = np.linspace(0.3, 1.0, 10)
# Create the LearningCurve visualizer
# Use the best estimator from the GridSearchCV
lc_viz = LearningCurve(
knn_balanced_one_hot_stan.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
# Fit the visualizer
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
# Show the plot
lc_viz.poof()
<Axes: title={'center': 'Learning Curve for KNeighborsClassifier'}, xlabel='Training Instances', ylabel='Score'>
results = knn_balanced_one_hot_stan.cv_results_
k_values = np.unique(results['param_n_neighbors'])
best_scores_per_k = []
for k in k_values:
mask = results['param_n_neighbors'] == k
best_score = np.max(results['mean_test_score'][mask])
best_scores_per_k.append(best_score)
plt.figure(figsize=(8, 6))
plt.plot(k_values, best_scores_per_k, marker='o', linestyle='-', color='blue', label="Melhor F1 Score")
plt.xlabel("K Values")
plt.ylabel("F1 Score")
plt.title("Best F1 Score for the value of K")
plt.grid(True)
plt.legend()
plt.show()
The best score obtained by the KNN was with K=11.
We create a function to save all the results to compare all later.
def metrics_report(model, X_test, y_test):
"""
Generate a detailed metrics report for a given model and test set.
Parameters:
- model: The trained model or GridSearchCV object.
- X_test: Test feature set.
- y_test: True labels for the test set.
Returns:
- metrics_df: DataFrame with evaluation metrics.
- class_report_df: DataFrame with the classification report.
"""
# Ensure the model is either an estimator or a GridSearchCV object
estimator = model.best_estimator_ if hasattr(model, 'best_estimator_') else model
# Predictions and probabilities
test_pred = estimator.predict(X_test)
test_pred_proba = (
estimator.predict_proba(X_test)[:, 1] if hasattr(estimator, 'predict_proba') else None
)
# Metrics calculation
accuracy = accuracy_score(y_test, test_pred)
precision = precision_score(y_test, test_pred)
recall = recall_score(y_test, test_pred)
f1 = f1_score(y_test, test_pred)
roc_auc = roc_auc_score(y_test, test_pred_proba) if test_pred_proba is not None else None
conf_matrix = confusion_matrix(y_test, test_pred)
# Create metrics DataFrame
metrics = {
'Metric': ['Accuracy', 'Precision', 'Recall', 'F1 Score', 'ROC AUC'],
'Score': [accuracy, precision, recall, f1, roc_auc or 'N/A']
}
metrics_df = pd.DataFrame(metrics)
# Confusion matrix heatmap
plt.figure(figsize=(6, 4))
sns.heatmap(conf_matrix, annot=True, fmt="d", cmap="Blues", cbar=False,
xticklabels=["Negative", "Positive"], yticklabels=["Negative", "Positive"],
linewidths=0.5, linecolor='black')
plt.xlabel("Predicted Label")
plt.ylabel("True Label")
plt.title("Confusion Matrix")
plt.show()
# Classification report
class_report = classification_report(y_test, test_pred, output_dict=True)
class_report_df = pd.DataFrame(class_report).transpose()
print("\n=== Classification Report ===")
display(
class_report_df.style.format(precision=3).set_properties(**{
'font-size': '14px', 'text-align': 'center'
}).set_table_styles([{
'selector': 'th',
'props': [('font-size', '15px'), ('text-align', 'center')]
}])
)
return metrics_df, class_report
metrics_df_knn_one_stan, class_report_knn_one_stan = metrics_report(knn_balanced_one_hot_stan, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.851 | 0.810 | 0.830 | 19391.000 |
| True | 0.816 | 0.857 | 0.836 | 19147.000 |
| accuracy | 0.833 | 0.833 | 0.833 | 0.833 |
| macro avg | 0.834 | 0.833 | 0.833 | 38538.000 |
| weighted avg | 0.834 | 0.833 | 0.833 | 38538.000 |
5.2: Naives Bayes ¶
Gaussian NB¶
gnb = GaussianNB()
param_grid = {
'var_smoothing': np.logspace(0, -9, num=100)
}
grid_search_bayesian_one_stan = GridSearchCV(gnb, param_grid, cv=10, scoring='f1_weighted', verbose=2)
grid_search_bayesian_one_stan.fit(X_resampled_one_hot_stan, y_resampled)
print(f"Best params with balanced data: {grid_search_bayesian_one_stan.best_params_}")
print(f"Cross-validation best F1-score with balanced data: {grid_search_bayesian_one_stan.best_score_:.2f}")
Fitting 10 folds for each of 100 candidates, totalling 1000 fits
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ..................................var_smoothing=1.0; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ...................var_smoothing=0.8111308307896871; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.657933224657568; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ....................var_smoothing=0.533669923120631; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ..................var_smoothing=0.43287612810830584; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.3511191734215131; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ...................var_smoothing=0.2848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ..................var_smoothing=0.23101297000831597; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ...................var_smoothing=0.1873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.15199110829529336; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................var_smoothing=0.12328467394420659; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................................var_smoothing=0.1; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ..................var_smoothing=0.08111308307896872; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0657933224657568; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ...................var_smoothing=0.0533669923120631; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.04328761281083057; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.03511191734215131; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02848035868435802; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.02310129700083159; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01873817422860384; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END ..................var_smoothing=0.01519911082952933; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................var_smoothing=0.012328467394420659; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................................var_smoothing=0.01; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.008111308307896872; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.006579332246575682; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.005336699231206307; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.004328761281083057; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.003511191734215131; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END .................var_smoothing=0.002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END ................var_smoothing=0.0023101297000831605; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END .................var_smoothing=0.001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0015199110829529332; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................var_smoothing=0.0012328467394420659; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................................var_smoothing=0.001; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0008111308307896872; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0006579332246575676; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0005336699231206307; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0004328761281083057; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0003511191734215131; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002848035868435802; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0002310129700083158; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001873817422860383; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001519911082952933; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ................var_smoothing=0.0001232846739442066; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ...............................var_smoothing=0.0001; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ...............var_smoothing=5.3366992312063123e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083062e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=3.511191734215127e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.5199110829529332e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420658e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................................var_smoothing=1e-05; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575683e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083053e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151275e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................................var_smoothing=1e-06; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896872e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206313e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................................var_smoothing=1e-07; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896873e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=4.3287612810830526e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151277e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435799e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860383e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................var_smoothing=1.232846739442066e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................................var_smoothing=1e-08; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=8.111308307896856e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=6.579332246575682e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=5.336699231206302e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ................var_smoothing=4.328761281083061e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ...............var_smoothing=3.5111917342151273e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.848035868435805e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=2.310129700083158e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.873817422860387e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ................var_smoothing=1.519911082952933e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ...............var_smoothing=1.2328467394420635e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
[CV] END ................................var_smoothing=1e-09; total time= 0.0s
Best params with balanced data: {'var_smoothing': 0.15199110829529336}
Cross-validation best F1-score with balanced data: 0.69
fig, ax = plt.subplots(figsize=(6, 4))
cv = StratifiedKFold(n_splits=12)
sizes = np.linspace(0.3, 1.0, 10)
lc_viz = LearningCurve(
grid_search_bayesian_one_stan.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
ax.grid(linestyle='--')
lc_viz.poof()
<Axes: title={'center': 'Learning Curve for GaussianNB'}, xlabel='Training Instances', ylabel='Score'>
metrics_df_gnb_one_stan, class_report_gnb_one_stan = metrics_report(grid_search_bayesian_one_stan, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.695 | 0.689 | 0.692 | 19391.000 |
| True | 0.688 | 0.694 | 0.691 | 19147.000 |
| accuracy | 0.691 | 0.691 | 0.691 | 0.691 |
| macro avg | 0.691 | 0.691 | 0.691 | 38538.000 |
| weighted avg | 0.691 | 0.691 | 0.691 | 38538.000 |
with open('bayesian_balanced_model_one_hot.pkl', 'wb') as model_file:
pickle.dump(grid_search_bayesian_one_stan, model_file)
print("Saved in pickle.")
Saved in pickle.
bnb = BernoulliNB()
param_grid_bernoulli = {
'alpha': np.linspace(0.1, 1.0, num=10),
'fit_prior': [True, False],
'binarize': [0.0, 0.5, 1.0]
}
grid_search_bernoulli_one_stan = GridSearchCV(bnb, param_grid_bernoulli, cv=10, scoring='f1_weighted', verbose=2)
grid_search_bernoulli_one_stan.fit(X_resampled_one_hot_stan, y_resampled)
print(f"Best params with balanced data: {grid_search_bernoulli_one_stan.best_params_}")
print(f"Cross-validation best F1-score with balanced data: {grid_search_bernoulli_one_stan.best_score_:.2f}")
Fitting 10 folds for each of 60 candidates, totalling 600 fits
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.1, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.1, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.2, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.2, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.30000000000000004, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.4, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.4, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.5, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.5, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.6, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.6, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END alpha=0.7000000000000001, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.8, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.8, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=0.9, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=0.9, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.0, fit_prior=False; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=0.5, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=0.5, fit_prior=False; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ............alpha=1.0, binarize=1.0, fit_prior=True; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
[CV] END ...........alpha=1.0, binarize=1.0, fit_prior=False; total time= 0.0s
Best params with balanced data: {'alpha': 0.1, 'binarize': 0.5, 'fit_prior': True}
Cross-validation best F1-score with balanced data: 0.71
fig, ax = plt.subplots(figsize=(6, 4))
cv = StratifiedKFold(n_splits=12)
sizes = np.linspace(0.3, 1.0, 10)
lc_viz = LearningCurve(
grid_search_bernoulli_one_stan.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
ax.grid(linestyle='--')
lc_viz.poof()
<Axes: title={'center': 'Learning Curve for BernoulliNB'}, xlabel='Training Instances', ylabel='Score'>
metrics_df_bnb_one_stan, class_report_bnb_one_stan = metrics_report(grid_search_bernoulli_one_stan, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.680 | 0.830 | 0.748 | 19391.000 |
| True | 0.778 | 0.605 | 0.681 | 19147.000 |
| accuracy | 0.718 | 0.718 | 0.718 | 0.718 |
| macro avg | 0.729 | 0.717 | 0.714 | 38538.000 |
| weighted avg | 0.729 | 0.718 | 0.714 | 38538.000 |
As we can see, the Bernoulli NB had a best performance in this task compared to the Gaussian NB.
with open('bernoulli_balanced_model_one_hot.pkl', 'wb') as model_file:
pickle.dump(grid_search_bernoulli_one_stan, model_file)
print("Saved in pickle.")
Saved in pickle.
5.3: Decision Trees ¶
dt_model = DecisionTreeClassifier(random_state=42)
param_grid_dt = {
'max_depth': [2,3, 4,5, 6, 7],
'min_samples_split': [10, 20, 50, 100],
'min_samples_leaf': [5, 10, 20, 50],
'criterion': ['gini', 'entropy'],
'ccp_alpha': [0.0, 0.01, 0.1]
}
inner_cv = StratifiedKFold(n_splits=5, shuffle=True, random_state=42)
grid_search_dt = GridSearchCV(
dt_model,
param_grid_dt,
scoring='f1_weighted',
cv=inner_cv,
verbose=2
)
grid_search_dt.fit(X_resampled_one_hot_stan, y_resampled)
outer_cv = StratifiedKFold(n_splits=5, shuffle=True, random_state=42)
nested_scores = cross_val_score(
grid_search_dt,
X_resampled_one_hot_stan,
y_resampled,
scoring='f1_weighted',
cv=outer_cv,
verbose=2
)
print(f"Nested CV F1-weighted scores: {nested_scores}")
print(f"Mean Nested CV F1-weighted score: {nested_scores.mean():.2f}")
Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END .................................................... total time= 2.2min Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END .................................................... total time= 2.2min Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.1s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END .................................................... total time= 2.2min Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.1s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.1s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END .................................................... total time= 2.3min Fitting 5 folds for each of 576 candidates, totalling 2880 fits [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s
c:\Users\chess\anaconda3\Lib\site-packages\numpy\ma\core.py:2820: RuntimeWarning: invalid value encountered in cast
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 0.0s [CV] END .................................................... total time= 2.3min Nested CV F1-weighted scores: [0.75150259 0.75041861 0.75477979 0.75800809 0.74809864] Mean Nested CV F1-weighted score: 0.75
To reduce the overfitting, we defined max_deph = [2,3, 4,5, 6, 7], to better generalize the data, and to further addredd this issue, we use 'ccp_alpha' to prune the decision tree.
# Create a figure and axis
fig, ax = plt.subplots(figsize=(6, 4))
# Use StratifiedKFold with 12 splits
cv = StratifiedKFold(n_splits=12)
# Define training sizes
sizes = np.linspace(0.3, 1.0, 10)
# Create the LearningCurve visualizer
# Use the best estimator from the GridSearchCV
lc_viz = LearningCurve(
grid_search_dt.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
# Fit the visualizer
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
# Show the plot
lc_viz.poof()
<Axes: title={'center': 'Learning Curve for DecisionTreeClassifier'}, xlabel='Training Instances', ylabel='Score'>
plt.figure(figsize=(12, 8))
plot_tree(grid_search_dt.best_estimator_,
filled=True,
feature_names=X_resampled_one_hot_stan.columns,
class_names=['False', 'True'],
rounded=True,
fontsize=10,
max_depth=3)
plt.title("Decision Tree Visualization")
plt.show()
metrics_df_dt_one_stan, class_report_dt_one_stan = metrics_report(grid_search_dt, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.713 | 0.853 | 0.777 | 19391.000 |
| True | 0.814 | 0.652 | 0.724 | 19147.000 |
| accuracy | 0.753 | 0.753 | 0.753 | 0.753 |
| macro avg | 0.764 | 0.753 | 0.751 | 38538.000 |
| weighted avg | 0.763 | 0.753 | 0.751 | 38538.000 |
5.4: Random Forest ¶
ensemble_model = RandomForestClassifier(random_state=42)
param_grid_ensemble = {
'max_depth': [2,3, 4,5, 6, 7],
'min_samples_split': [10, 20, 50, 100],
'min_samples_leaf': [5, 10, 20, 50],
'criterion': ['gini', 'entropy'],
'ccp_alpha': [0.0, 0.01, 0.1] # Prune
}
grid_search_ensemble_one_stan = GridSearchCV(ensemble_model, param_grid_ensemble, cv=5, scoring='f1_weighted', verbose=2)
grid_search_ensemble_one_stan.fit(X_resampled_one_hot_stan, y_resampled)
print(f"Best parameters for Random Forest: {grid_search_ensemble_one_stan.best_params_}")
print(f"Cross-validation best F1-score for Random Forest: {grid_search_ensemble_one_stan.best_score_:.2f}")
Fitting 5 folds for each of 576 candidates, totalling 2880 fits
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 3.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 3.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 3.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 3.0s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.9s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.8s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.0, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.8s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.01, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 0.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=gini, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=5, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=10, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=20, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=10; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=20; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=50; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=2, min_samples_leaf=50, min_samples_split=100; total time= 1.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=5, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=10, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=20; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=20, min_samples_split=100; total time= 1.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=10; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=20; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=50; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=3, min_samples_leaf=50, min_samples_split=100; total time= 1.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=5, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=10; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=10, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=20, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=10; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=20; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=50; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=4, min_samples_leaf=50, min_samples_split=100; total time= 1.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=5, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=10, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=20, min_samples_split=100; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=10; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=20; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 2.0s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=50; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=5, min_samples_leaf=50, min_samples_split=100; total time= 1.9s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=5, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=10, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=10; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=20; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.1s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.2s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=6, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=5, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=50; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=10, min_samples_split=100; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=20; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=20, min_samples_split=100; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.7s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.8s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.6s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=10; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=20; total time= 2.5s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=50; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.3s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
[CV] END ccp_alpha=0.1, criterion=entropy, max_depth=7, min_samples_leaf=50, min_samples_split=100; total time= 2.4s
Best parameters for Random Forest: {'ccp_alpha': 0.0, 'criterion': 'gini', 'max_depth': 7, 'min_samples_leaf': 5, 'min_samples_split': 50}
Cross-validation best F1-score for Random Forest: 0.76
To reduce the overfitting, we defined max_deph = [2,3, 4,5, 6, 7], to better generalize the data, and to further addredd this issue, we use 'ccp_alpha' to prune the decision tree, like we did in the Decision Tree.
# Create a figure and axis
fig, ax = plt.subplots(figsize=(6, 4))
# Use StratifiedKFold with 12 splits
cv = StratifiedKFold(n_splits=12)
# Define training sizes
sizes = np.linspace(0.3, 1.0, 10)
# Create the LearningCurve visualizer
# Use the best estimator from the GridSearchCV
lc_viz = LearningCurve(
grid_search_ensemble_one_stan.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
# Fit the visualizer
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
# Show the plot
lc_viz.poof()
<Axes: title={'center': 'Learning Curve for RandomForestClassifier'}, xlabel='Training Instances', ylabel='Score'>
# Extract one tree from the ensemble
single_tree = grid_search_ensemble_one_stan.best_estimator_.estimators_[0] # Change index to visualize a different tree
# Plot the tree
plt.figure(figsize=(20, 10))
plot_tree(single_tree, feature_names=X_resampled_one_hot_stan.columns, filled=True, rounded=True, fontsize=10, max_depth=3)
plt.title("Visualization of a Single Decision Tree in the Ensemble")
plt.show()
metrics_df_rf_one_stan, class_report_rf_one_stan = metrics_report(grid_search_ensemble_one_stan, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.722 | 0.843 | 0.778 | 19391.000 |
| True | 0.809 | 0.671 | 0.733 | 19147.000 |
| accuracy | 0.758 | 0.758 | 0.758 | 0.758 |
| macro avg | 0.765 | 0.757 | 0.756 | 38538.000 |
| weighted avg | 0.765 | 0.758 | 0.756 | 38538.000 |
with open('rf_balanced_model_one_hot.pkl', 'wb') as model_file:
pickle.dump(grid_search_ensemble_one_stan, model_file)
print("Saved in pickle.")
Saved in pickle.
5.5: XGBoost ¶
xgb_model = XGBClassifier(eval_metric='logloss', random_state=42)
param_grid = {
'n_estimators': [100, 200, 300],
'max_depth': [3, 5, 7],
'learning_rate': [0.01, 0.1, 0.2],
'subsample': [0.8, 1.0]
}
grid_search_xgb = GridSearchCV(estimator=xgb_model, param_grid=param_grid, scoring='f1', cv=3, verbose=2)
grid_search_xgb.fit(X_resampled_one_hot_stan, y_resampled)
Fitting 3 folds for each of 54 candidates, totalling 162 fits [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.01, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.01, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.01, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.01, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.5s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.5s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.4s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.4s [CV] END learning_rate=0.01, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.1, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=3, n_estimators=300, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.0s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=5, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=200, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=0.8; total time= 0.3s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=5, n_estimators=300, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=0.8; total time= 0.1s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.1s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=7, n_estimators=100, subsample=1.0; total time= 0.0s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=0.8; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=200, subsample=1.0; total time= 0.2s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=0.8; total time= 0.4s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s [CV] END learning_rate=0.2, max_depth=7, n_estimators=300, subsample=1.0; total time= 0.3s
GridSearchCV(cv=3,
estimator=XGBClassifier(base_score=None, booster=None,
callbacks=None, colsample_bylevel=None,
colsample_bynode=None,
colsample_bytree=None, device=None,
early_stopping_rounds=None,
enable_categorical=False,
eval_metric='logloss', feature_types=None,
gamma=None, grow_policy=None,
importance_type=None,
interaction_constraints=None,
learning_rate=...
max_cat_to_onehot=None,
max_delta_step=None, max_depth=None,
max_leaves=None, min_child_weight=None,
missing=nan, monotone_constraints=None,
multi_strategy=None, n_estimators=None,
n_jobs=None, num_parallel_tree=None,
random_state=42, ...),
param_grid={'learning_rate': [0.01, 0.1, 0.2],
'max_depth': [3, 5, 7],
'n_estimators': [100, 200, 300],
'subsample': [0.8, 1.0]},
scoring='f1', verbose=2)In a Jupyter environment, please rerun this cell to show the HTML representation or trust the notebook. On GitHub, the HTML representation is unable to render, please try loading this page with nbviewer.org.
GridSearchCV(cv=3,
estimator=XGBClassifier(base_score=None, booster=None,
callbacks=None, colsample_bylevel=None,
colsample_bynode=None,
colsample_bytree=None, device=None,
early_stopping_rounds=None,
enable_categorical=False,
eval_metric='logloss', feature_types=None,
gamma=None, grow_policy=None,
importance_type=None,
interaction_constraints=None,
learning_rate=...
max_cat_to_onehot=None,
max_delta_step=None, max_depth=None,
max_leaves=None, min_child_weight=None,
missing=nan, monotone_constraints=None,
multi_strategy=None, n_estimators=None,
n_jobs=None, num_parallel_tree=None,
random_state=42, ...),
param_grid={'learning_rate': [0.01, 0.1, 0.2],
'max_depth': [3, 5, 7],
'n_estimators': [100, 200, 300],
'subsample': [0.8, 1.0]},
scoring='f1', verbose=2)XGBClassifier(base_score=None, booster=None, callbacks=None,
colsample_bylevel=None, colsample_bynode=None,
colsample_bytree=None, device=None, early_stopping_rounds=None,
enable_categorical=False, eval_metric='logloss',
feature_types=None, gamma=None, grow_policy=None,
importance_type=None, interaction_constraints=None,
learning_rate=0.2, max_bin=None, max_cat_threshold=None,
max_cat_to_onehot=None, max_delta_step=None, max_depth=5,
max_leaves=None, min_child_weight=None, missing=nan,
monotone_constraints=None, multi_strategy=None, n_estimators=300,
n_jobs=None, num_parallel_tree=None, random_state=42, ...)XGBClassifier(base_score=None, booster=None, callbacks=None,
colsample_bylevel=None, colsample_bynode=None,
colsample_bytree=None, device=None, early_stopping_rounds=None,
enable_categorical=False, eval_metric='logloss',
feature_types=None, gamma=None, grow_policy=None,
importance_type=None, interaction_constraints=None,
learning_rate=0.2, max_bin=None, max_cat_threshold=None,
max_cat_to_onehot=None, max_delta_step=None, max_depth=5,
max_leaves=None, min_child_weight=None, missing=nan,
monotone_constraints=None, multi_strategy=None, n_estimators=300,
n_jobs=None, num_parallel_tree=None, random_state=42, ...)metrics_df_xg, class_report_xg = metrics_report(grid_search_xgb, X_val, y_val)
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.770 | 0.828 | 0.798 | 19391.000 |
| True | 0.811 | 0.750 | 0.779 | 19147.000 |
| accuracy | 0.789 | 0.789 | 0.789 | 0.789 |
| macro avg | 0.791 | 0.789 | 0.789 | 38538.000 |
| weighted avg | 0.791 | 0.789 | 0.789 | 38538.000 |
with open('xgb_model.pkl', 'wb') as model_file:
pickle.dump(grid_search_xgb, model_file)
print("Saved in pickle.")
Saved in pickle.
5.6: Support Vector Machines ¶
svm = SVC(probability=True, cache_size=2000, max_iter=5000)
param_dist_svm = {
'C': [0.1, 1, 10],
'kernel': ['linear'],
'degree': [2, 3, 4],
'gamma': ['scale', 'auto']
}
random_search_svm_one_stand = RandomizedSearchCV(
estimator=svm,
param_distributions=param_dist_svm,
cv=5,
scoring='f1_weighted',
verbose=2,
n_jobs=-1,
n_iter=10,
error_score='raise'
)
# Step 5: Fit com parallel backend e tqdm para progresso
print("Iniciando Random Search...")
with parallel_backend('loky', n_jobs=-1):
try:
random_search_svm_one_stand.fit(X_resampled_one_hot_stan, y_resampled)
print("\nTreino completado com sucesso!")
except Exception as e:
print(f"\nErro durante o treino: {str(e)}")
# Step 6: Output results
print("\nResultados:")
print(f"Melhores parâmetros: {random_search_svm_one_stand.best_params_}")
print(f"Melhor F1-score: {random_search_svm_one_stand.best_score_:.2f}")
For the SVM model, we had to run it on another computer because it took too long to execute on this one. As a result, the outputs are not shown here.
# Create a figure and axis
fig, ax = plt.subplots(figsize=(6, 4))
# Use StratifiedKFold with 12 splits
cv = StratifiedKFold(n_splits=12)
# Define training sizes
sizes = np.linspace(0.3, 1.0, 10)
# Create the LearningCurve visualizer
# Use the best estimator from the GridSearchCV
lc_viz = LearningCurve(
random_search_svm_one_stand.best_estimator_,
cv=cv,
train_sizes=sizes,
scoring="f1_weighted",
n_jobs=4,
ax=ax
)
# Fit the visualizer
lc_viz.fit(X_resampled_one_hot_stan, y_resampled)
ax.grid(linestyle='--')
# Show the plot
lc_viz.poof()
metrics_svm_rf_one_stan, class_report_svm_one_stan = metrics_report(random_search_svm_one_stand, X_val, y_val)

5.7: Neural Network - MLP¶
This code implements a binary classification neural network with an emphasis on F1-Score optimization. The approach includes hyperparameter tuning, cross-validation, and the use of a custom callback to monitor performance.
Key Components:
- Custom F1-Score Callback:
Monitors the F1-Score on the validation set and implements early stopping based on improvements. Model Creation:
A modular function builds dense neural networks with configurable layers, neurons, activation functions, and regularization techniques like Batch Normalization and Dropout.
- Hyperparameter Search:
Uses Stratified K-Fold Cross-Validation to evaluate different configurations (activation, dropout rate, learning rate). The best configuration is selected based on the mean F1-Score across folds.
- Final Model Training:
Trains the final model using the best hyperparameters and incorporates the F1-Score callback for monitoring.
class F1ScoreCallback(callbacks.Callback):
def __init__(self, X_val, y_val, patience=5):
super(F1ScoreCallback, self).__init__()
self.X_val = X_val
self.y_val = y_val
self.patience = patience
self.best_weights = None
self.best_f1 = -np.inf
self.wait = 0
def on_epoch_end(self, epoch, logs=None):
y_pred = (self.model.predict(self.X_val) > 0.5).astype("int32")
f1 = f1_score(self.y_val, y_pred)
if f1 > self.best_f1:
self.best_f1 = f1
self.best_weights = self.model.get_weights()
self.wait = 0
else:
self.wait += 1
if self.wait >= self.patience:
self.model.stop_training = True
self.model.set_weights(self.best_weights)
def create_model(input_dim, n_hidden_layers=2,
n_neurons=32,
activation='relu',
dropout_rate=0.3,
learning_rate=1e-3):
model = models.Sequential()
model.add(layers.Input(shape=(input_dim,)))
for _ in range(n_hidden_layers):
model.add(layers.Dense(n_neurons, activation=activation))
model.add(layers.BatchNormalization())
model.add(layers.Dropout(dropout_rate))
model.add(layers.Dense(1, activation='sigmoid'))
opt = optimizers.Adam(learning_rate=learning_rate)
model.compile(loss='binary_crossentropy', optimizer=opt, metrics=['accuracy'])
return model
def hyperparameter_search(X_train, y_train, best_features=None):
# If best_features is provided, select those features
if best_features is not None:
X_train = X_train[best_features]
# Ensure numeric dtype
X_train = X_train.astype(float)
y_train = y_train.astype(float)
# Hyperparameter search grid with new configurations
hyperparams_grid = [
{'n_hidden_layers': 2, 'n_neurons': 32, 'activation': 'relu', 'dropout_rate': 0.1, 'learning_rate': 1e-3},
{'n_hidden_layers': 2, 'n_neurons': 32,'activation': 'relu', 'dropout_rate': 0.3, 'learning_rate': 5e-4},
{'n_hidden_layers': 2, 'n_neurons': 32,'activation': 'elu', 'dropout_rate': 0.2, 'learning_rate': 1e-3},
{'n_hidden_layers': 2, 'n_neurons': 32,'activation': 'tanh', 'dropout_rate': 0.2, 'learning_rate': 1e-4},
{'n_hidden_layers': 2, 'n_neurons': 32,'activation': 'leaky_relu', 'dropout_rate': 0.3, 'learning_rate': 2e-3},
{'n_hidden_layers': 2, 'n_neurons': 32,'activation': 'relu', 'dropout_rate': 0.4, 'learning_rate': 1e-4},
]
# Cross-validation setup
skf = StratifiedKFold(n_splits=5, shuffle=True, random_state=42)
best_config = None
best_mean_f1 = -np.inf
for config in hyperparams_grid:
all_f1_scores = []
all_precision = []
all_recall = []
all_accuracy = []
for train_index, val_index in skf.split(X_train, y_train):
X_cv_train, X_cv_val = X_train.iloc[train_index], X_train.iloc[val_index]
y_cv_train, y_cv_val = y_train.iloc[train_index], y_train.iloc[val_index]
# Ensure numeric arrays
X_cv_train_values = X_cv_train.values.astype(float)
X_cv_val_values = X_cv_val.values.astype(float)
y_cv_train_values = y_cv_train.values.astype(float)
y_cv_val_values = y_cv_val.values.astype(float)
model = create_model(input_dim=X_train.shape[1],
n_hidden_layers=config['n_hidden_layers'],
n_neurons=config['n_neurons'],
activation=config['activation'],
dropout_rate=config['dropout_rate'],
learning_rate=config['learning_rate'])
# Early stopping based on F1 Score
f1_callback = F1ScoreCallback(X_cv_val_values, y_cv_val_values, patience=5)
# Fit model
model.fit(X_cv_train_values, y_cv_train_values,
validation_data=(X_cv_val_values, y_cv_val_values),
epochs=50,
batch_size=256,
verbose=0,
callbacks=[f1_callback])
# Evaluate on validation set
y_pred = (model.predict(X_cv_val_values) > 0.5).astype('int32')
fold_f1 = f1_score(y_cv_val_values, y_pred)
fold_precision = precision_score(y_cv_val_values, y_pred)
fold_recall = recall_score(y_cv_val_values, y_pred)
fold_acc = accuracy_score(y_cv_val_values, y_pred)
all_f1_scores.append(fold_f1)
all_precision.append(fold_precision)
all_recall.append(fold_recall)
all_accuracy.append(fold_acc)
mean_f1 = np.mean(all_f1_scores)
if mean_f1 > best_mean_f1:
best_mean_f1 = mean_f1
best_config = {
'config': config,
'f1': mean_f1,
'precision': np.mean(all_precision),
'recall': np.mean(all_recall),
'accuracy': np.mean(all_accuracy)
}
return best_config
def train_final_model(X_train, y_train, X_val, y_val, best_features=None, best_config=None):
# If best_config is a dictionary with config details, use best_features from the first run
if best_config and 'config' in best_config:
# No changes needed to best_features
pass
# Prepare data
if best_features is not None:
X_train = X_train[best_features]
X_val = X_val[best_features]
# Ensure numeric dtype
X_train = X_train.astype(float)
y_train = y_train.astype(float)
X_val = X_val.astype(float)
y_val = y_val.astype(float)
# If no best_config provided, run hyperparameter search
if best_config is None:
best_config = hyperparameter_search(X_train, y_train, best_features)
print("Best configuration found:")
print(best_config)
# Create final model with best configuration
final_model = create_model(input_dim=X_train.shape[1],
n_hidden_layers=best_config['config']['n_hidden_layers'],
n_neurons=best_config['config']['n_neurons'],
dropout_rate=best_config['config']['dropout_rate'],
learning_rate=best_config['config']['learning_rate'])
# Prepare validation data
X_val_values = X_val.values.astype(float)
y_val_values = y_val.values.astype(float)
X_train_values = X_train.values.astype(float)
y_train_values = y_train.values.astype(float)
# Early stopping callback
f1_callback_final = F1ScoreCallback(X_val_values, y_val_values, patience=5)
# Train final model
history = final_model.fit(X_train_values, y_train_values,
validation_data=(X_val_values, y_val_values),
epochs=50,
batch_size=256,
verbose=1,
callbacks=[f1_callback_final])
return final_model, best_config, history
#best_params = hyperparameter_search(X_resampled_one_hot_stan, y_resampled)
After finding the best network, we train the network with this configuration: 'n_hidden_layers': 2, 'n_neurons': 32, 'activation': 'relu', 'dropout_rate': 0.1, 'learning_rate': 0.001
def train_final_model(X_train, y_train, X_val, y_val, best_features=None, best_config=None):
# If best_config is a dictionary with config details, use best_features from the first run
if best_config and 'config' in best_config:
# No changes needed to best_features
pass
# Prepare data
if best_features is not None:
X_train = X_train[best_features]
X_val = X_val[best_features]
# Ensure numeric dtype
X_train = X_train.astype(float)
y_train = y_train.astype(float)
X_val = X_val.astype(float)
y_val = y_val.astype(float)
# If no best_config provided, run hyperparameter search
if best_config is None:
best_config = hyperparameter_search(X_train, y_train, best_features)
print("Best configuration found:")
print(best_config)
# Create final model with best configuration
final_model = create_model(input_dim=X_train.shape[1],
n_hidden_layers=best_config['config']['n_hidden_layers'],
n_neurons=best_config['config']['n_neurons'],
dropout_rate=best_config['config']['dropout_rate'],
learning_rate=best_config['config']['learning_rate'])
# Prepare validation data
X_val_values = X_val.values.astype(float)
y_val_values = y_val.values.astype(float)
X_train_values = X_train.values.astype(float)
y_train_values = y_train.values.astype(float)
# Early stopping callback
f1_callback_final = F1ScoreCallback(X_val_values, y_val_values, patience=10)
# Train final model
history = final_model.fit(X_train_values, y_train_values,
validation_data=(X_val_values, y_val_values),
epochs=50,
batch_size=256,
verbose=1,
callbacks=[f1_callback_final])
return final_model, best_config, history
We have created a new function to obtain the metric scores because it has to be different from the other models.
def metrics_report_nn(model, X_test, y_test, threshold=0.5):
"""
Generate a detailed metrics report for a Keras Neural Network model and test set.
Parameters:
- model: The trained Keras model.
- X_test: Test feature set.
- y_test: True labels for the test set.
- threshold: Threshold for binary classification. Default is 0.5.
Returns:
- metrics_df: DataFrame with evaluation metrics.
- class_report_df: DataFrame with the classification report.
"""
# Predict probabilities
test_pred_proba = model.predict(X_test, verbose=0)
# Apply threshold to get binary predictions
test_pred = (test_pred_proba > threshold).astype(int).flatten()
# Metrics calculation
accuracy = accuracy_score(y_test, test_pred)
precision = precision_score(y_test, test_pred)
recall = recall_score(y_test, test_pred)
f1 = f1_score(y_test, test_pred)
print(f'f1: {f1}')
roc_auc = roc_auc_score(y_test, test_pred_proba) if test_pred_proba is not None else None
conf_matrix = confusion_matrix(y_test, test_pred)
# Create metrics DataFrame
metrics = {
'Metric': ['Accuracy', 'Precision', 'Recall', 'F1 Score', 'ROC AUC'],
'Score': [accuracy, precision, recall, f1, roc_auc or 'N/A']
}
metrics_df = pd.DataFrame(metrics)
# Confusion matrix heatmap
plt.figure(figsize=(6, 4))
sns.heatmap(conf_matrix, annot=True, fmt="d", cmap="Blues", cbar=False,
xticklabels=["Negative", "Positive"], yticklabels=["Negative", "Positive"],
linewidths=0.5, linecolor='black')
plt.xlabel("Predicted Label")
plt.ylabel("True Label")
plt.title("Confusion Matrix")
plt.show()
# Classification report
class_report = classification_report(y_test, test_pred, output_dict=True)
class_report_df = pd.DataFrame(class_report).transpose()
print("\n=== Classification Report ===")
display(
class_report_df.style.format(precision=3).set_properties(**{
'font-size': '14px', 'text-align': 'center'
}).set_table_styles([{
'selector': 'th',
'props': [('font-size', '15px'), ('text-align', 'center')]
}])
)
return metrics_df, class_report_df
final_model, best_config, history = train_final_model(X_resampled_one_hot_stan, y_resampled, X_val, y_val, best_features=None, best_config={'config': {'n_hidden_layers': 2, 'n_neurons': 32,
'activation': 'relu', 'dropout_rate': 0.1,
'learning_rate': 0.001}, 'f1': np.float64(0.7558504322965547),
'precision': np.float64(0.8029615929881159), 'recall': np.float64(0.7141209061235347),
'accuracy': np.float64(0.7686276690391459)})
Best configuration found:
{'config': {'n_hidden_layers': 2, 'n_neurons': 32, 'activation': 'relu', 'dropout_rate': 0.1, 'learning_rate': 0.001}, 'f1': 0.7558504322965547, 'precision': 0.8029615929881159, 'recall': 0.7141209061235347, 'accuracy': 0.7686276690391459}
Epoch 1/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 608us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 4s 6ms/step - accuracy: 0.6506 - loss: 0.6500 - val_accuracy: 0.7437 - val_loss: 0.5253
Epoch 2/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 589us/stepcc
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7365 - loss: 0.5201 - val_accuracy: 0.7485 - val_loss: 0.5026
Epoch 3/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 601us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7397 - loss: 0.5149 - val_accuracy: 0.7504 - val_loss: 0.5009
Epoch 4/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 575us/stepcc
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7423 - loss: 0.5121 - val_accuracy: 0.7490 - val_loss: 0.5010
Epoch 5/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 560us/stepcc
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7477 - loss: 0.5072 - val_accuracy: 0.7498 - val_loss: 0.5006
Epoch 6/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 711us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 6ms/step - accuracy: 0.7445 - loss: 0.5095 - val_accuracy: 0.7503 - val_loss: 0.4998
Epoch 7/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 649us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 6ms/step - accuracy: 0.7434 - loss: 0.5079 - val_accuracy: 0.7489 - val_loss: 0.5011
Epoch 8/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 618us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7468 - loss: 0.5061 - val_accuracy: 0.7513 - val_loss: 0.4997
Epoch 9/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 634us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7465 - loss: 0.5065 - val_accuracy: 0.7501 - val_loss: 0.4996
Epoch 10/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 647us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 6ms/step - accuracy: 0.7475 - loss: 0.5040 - val_accuracy: 0.7495 - val_loss: 0.5000
Epoch 11/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 632us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7465 - loss: 0.5068 - val_accuracy: 0.7500 - val_loss: 0.4996
Epoch 12/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 630us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7501 - loss: 0.5044 - val_accuracy: 0.7479 - val_loss: 0.5000
Epoch 13/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 622us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7491 - loss: 0.5046 - val_accuracy: 0.7496 - val_loss: 0.4995
Epoch 14/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 631us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 5ms/step - accuracy: 0.7490 - loss: 0.5042 - val_accuracy: 0.7483 - val_loss: 0.4995
Epoch 15/50
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 626us/step
352/352 ━━━━━━━━━━━━━━━━━━━━ 2s 6ms/step - accuracy: 0.7475 - loss: 0.5044 - val_accuracy: 0.7484 - val_loss: 0.4997
metrics_df_nn_one_stan, class_report_nn_one_stan = metrics_report_nn(final_model, X_val, y_val)
f1: 0.7280775954435234
=== Classification Report ===
| precision | recall | f1-score | support | |
|---|---|---|---|---|
| False | 0.719 | 0.824 | 0.768 | 19391.000 |
| True | 0.791 | 0.674 | 0.728 | 19147.000 |
| accuracy | 0.750 | 0.750 | 0.750 | 0.750 |
| macro avg | 0.755 | 0.749 | 0.748 | 38538.000 |
| weighted avg | 0.755 | 0.750 | 0.748 | 38538.000 |
We tried a lot of configurations, and the best is below:
| Precision | Recall | F1-Score | Support | |
|---|---|---|---|---|
| False | 0.760 | 0.834 | 0.795 | 12915.000 |
| True | 0.814 | 0.734 | 0.772 | 12777.000 |
| Accuracy | 0.784 | 0.784 | 0.784 | 0.784 |
| Macro Avg | 0.787 | 0.784 | 0.784 | 25692.000 |
| Weighted Avg | 0.787 | 0.784 | 0.784 | 25692.000 |
This was the best result but it was not the best score in Kaggle.
5.8: Meta Model¶
To test a meta-model, we leveraged the two best pre-trained neural network models. These models were combined to create a meta-model that uses the predictions of the individual models as input features.
from tensorflow.keras.models import load_model, Sequential
from tensorflow.keras.layers import Dense, Input
model1 = load_model('final_model_pro_pro_last.h5')
model2 = load_model('model_2.h5')
def generate_meta_features(models, X):
meta_features = [model.predict(X) for model in models]
return np.hstack(meta_features)
meta_train_features = generate_meta_features([model1, model2], X_resampled_one_hot_stan)
meta_test_features = generate_meta_features([model1, model2], X_val)
meta_model = Sequential([
Input(shape=(meta_train_features.shape[1],)),
Dense(32, activation='relu'),
Dense(32, activation='relu'),
Dense(1, activation='sigmoid')
])
meta_model.compile(optimizer='adam', loss='binary_crossentropy', metrics=['accuracy'])
history = meta_model.fit(meta_train_features, y_resampled,
validation_split=0.2,
epochs=10,
batch_size=32,
verbose=1)
meta_model.save('meta_model.h5')
WARNING:absl:Compiled the loaded model, but the compiled metrics have yet to be built. `model.compile_metrics` will be empty until you train or evaluate the model. WARNING:absl:Compiled the loaded model, but the compiled metrics have yet to be built. `model.compile_metrics` will be empty until you train or evaluate the model.
2810/2810 ━━━━━━━━━━━━━━━━━━━━ 2s 576us/step 2810/2810 ━━━━━━━━━━━━━━━━━━━━ 2s 558us/step 1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 613us/step 1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 617us/step Epoch 1/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 4s 1ms/step - accuracy: 0.7467 - loss: 0.5115 - val_accuracy: 0.7709 - val_loss: 0.4817 Epoch 2/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7751 - loss: 0.4759 - val_accuracy: 0.7708 - val_loss: 0.4806 Epoch 3/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7726 - loss: 0.4776 - val_accuracy: 0.7673 - val_loss: 0.4819 Epoch 4/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7726 - loss: 0.4765 - val_accuracy: 0.7699 - val_loss: 0.4783 Epoch 5/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7739 - loss: 0.4723 - val_accuracy: 0.7710 - val_loss: 0.4777 Epoch 6/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7761 - loss: 0.4725 - val_accuracy: 0.7700 - val_loss: 0.4776 Epoch 7/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7718 - loss: 0.4735 - val_accuracy: 0.7713 - val_loss: 0.4774 Epoch 8/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 3s 1ms/step - accuracy: 0.7735 - loss: 0.4729 - val_accuracy: 0.7707 - val_loss: 0.4764 Epoch 9/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 2s 1ms/step - accuracy: 0.7758 - loss: 0.4693 - val_accuracy: 0.7694 - val_loss: 0.4784 Epoch 10/10 2248/2248 ━━━━━━━━━━━━━━━━━━━━ 2s 1ms/step - accuracy: 0.7714 - loss: 0.4755 - val_accuracy: 0.7707 - val_loss: 0.4776
WARNING:absl:You are saving your model as an HDF5 file via `model.save()` or `keras.saving.save_model(model)`. This file format is considered legacy. We recommend using instead the native Keras format, e.g. `model.save('my_model.keras')` or `keras.saving.save_model(model, 'my_model.keras')`.
from sklearn.metrics import accuracy_score, f1_score, classification_report
import numpy as np
def evaluate_meta_model(meta_model, X_test_features, y_test, threshold=0.5):
"""
Avalia o meta-modelo com métricas de Accuracy, F1-Score e Classification Report.
Parâmetros:
- meta_model: O meta-modelo treinado (Keras Model).
- X_test_features: Features de teste geradas pelos modelos base.
- y_test: Labels reais (ground truth) do conjunto de teste.
- threshold: Limite para converter as probabilidades em classes binárias (default: 0.5).
Retorna:
- Um dicionário com Accuracy, F1-Score e Classification Report.
"""
y_pred_probs = meta_model.predict(X_test_features)
y_pred = (y_pred_probs > threshold).astype(int)
# Calcular métricas
acc = accuracy_score(y_test, y_pred)
f1 = f1_score(y_test, y_pred, average='binary')
report = classification_report(y_test, y_pred, output_dict=False)
# Exibir resultados
print("=== Meta-Model Evaluation ===")
print(f"Accuracy: {acc:.4f}")
print(f"F1-Score: {f1:.4f}")
print("\nClassification Report:")
print(report)
return {
'accuracy': acc,
'f1_score': f1,
'classification_report': report
}
evaluation_results = evaluate_meta_model(meta_model, meta_test_features, y_val)
accuracy = evaluation_results['accuracy']
f1_score_value = evaluation_results['f1_score']
classification_report_text = evaluation_results['classification_report']
1205/1205 ━━━━━━━━━━━━━━━━━━━━ 1s 568us/step === Meta-Model Evaluation === Accuracy: 0.7714 F1-Score: 0.7603 Classification Report: precision recall f1-score support False 0.75 0.81 0.78 19391 True 0.79 0.73 0.76 19147 accuracy 0.77 38538 macro avg 0.77 0.77 0.77 38538 weighted avg 0.77 0.77 0.77 38538
However, the performance of the meta-model was worse compared to the individual models.
Part 6: Test Kaggle¶
#with open('dt_balanced_model_one_hot.pkl', 'rb') as file:
# dt_model = pickle.load(file)
# Carregar o modelo salvo
final_model = load_model('nn_one.h5')
data = pd.read_csv('customer_test_masked.csv')
ids = data["custid"]
data.drop(columns= ['Unnamed: 0', 'code_column', 'health_ins', 'custid'], inplace= True)
data['is_employed']= data['is_employed'].fillna(False)
data['is_employed']= data['is_employed'].astype(bool)
data['income'] = data['income'].apply(lambda x: max(x, 0))
data['log_income'] = np.log1p(data['income'])
data['recent_move_b']= data['recent_move_b'].replace({'F': False, 'T': True})
data['recent_move_b']= data['recent_move_b'].astype(bool)
data['num_vehicles'].astype('Int64')
def categorize_age(age):
if age < 40:
return 'Young'
elif 40 <= age < 65:
return 'Middle-aged'
else:
return 'Senior'
data['age_group'] = data['age'].apply(categorize_age)
data['income'] = data['income'].apply(lambda x: max(x, 0))
data['log_income'] = np.log1p(data['income'])
def assign_region(state):
northeast = ['Connecticut', 'Maine', 'Massachusetts', 'New Hampshire', 'Rhode Island',
'Vermont', 'New Jersey', 'New York', 'Pennsylvania']
midwest = ['Illinois', 'Indiana', 'Iowa', 'Kansas', 'Michigan', 'Minnesota', 'Missouri',
'Nebraska', 'North Dakota', 'Ohio', 'South Dakota', 'Wisconsin']
south = ['Alabama', 'Arkansas', 'Delaware', 'Florida', 'Georgia', 'Kentucky', 'Louisiana',
'Maryland', 'Mississippi', 'North Carolina', 'Oklahoma', 'South Carolina',
'Tennessee', 'Texas', 'Virginia', 'West Virginia', 'Washington D.C.', 'District of Columbia']
west = ['Alaska', 'Arizona', 'California', 'Colorado', 'Hawaii', 'Idaho', 'Montana',
'Nevada', 'New Mexico', 'Oregon', 'Utah', 'Washington', 'Wyoming']
if state in northeast:
return 'Northeast'
elif state in midwest:
return 'Midwest'
elif state in south:
return 'South'
elif state in west:
return 'West'
else:
return 'Unknown'
data['residence_region'] = data['state_of_res'].apply(assign_region)
numerical_features = data.select_dtypes(include=['float64', 'int64']).columns.tolist()
data = pd.get_dummies(data, columns=['sex', 'marital_status', 'housing_type', 'residence_region', 'age_group'], drop_first=True)
scaler = StandardScaler()
variables_to_standardize = ['income', 'num_vehicles', 'age', 'gas_usage', 'rooms', 'log_income']
data[variables_to_standardize] = scaler.fit_transform(data[variables_to_standardize])
columns_to_drop = ["income", "state_of_res"]
data = data.drop(columns=columns_to_drop)
data['recent_move_b']= data['recent_move_b'].replace({'F': False, 'T': True})
data['recent_move_b']= data['recent_move_b'].astype(bool)
data.isna().sum()
is_employed 0 num_vehicles 34 age 0 gas_usage 34 rooms 0 recent_move_b 0 log_income 0 sex_Male 0 marital_status_Married 0 marital_status_Never married 0 marital_status_Widowed 0 housing_type_Homeowner with mortgage/loan 0 housing_type_Occupied with no rent 0 housing_type_Rented 0 residence_region_Northeast 0 residence_region_South 0 residence_region_West 0 age_group_Senior 0 age_group_Young 0 dtype: int64
data['num_vehicles'] = data['num_vehicles'].fillna(0)
mean_value = data['gas_usage'].mean()
data['gas_usage'] = data['gas_usage'].fillna(mean_value)
data = data[best_features]
#predictions = dt_model.predict(data)
#predictions = pd.Series(predictions).map({False: 'FALSE', True: 'TRUE'})
# For NN
predictions = final_model.predict(data)
predictions = predictions.flatten()
predictions_binary = (predictions > 0.5).astype(bool)
predictions_str = np.where(predictions_binary, 'TRUE', 'FALSE')
result = pd.DataFrame({'custid': ids, 'health_ins_prediction': predictions_str})
result.to_csv('predicts_dt.csv', index=False)
result
26/26 ━━━━━━━━━━━━━━━━━━━━ 0s 3ms/step
| custid | health_ins_prediction | |
|---|---|---|
| 0 | 001115999_01 | TRUE |
| 1 | 000566299_01 | TRUE |
| 2 | 001397329_01 | TRUE |
| 3 | 000843100_01 | TRUE |
| 4 | 000260071_03 | TRUE |
| ... | ... | ... |
| 799 | 000961606_04 | FALSE |
| 800 | 001063357_01 | TRUE |
| 801 | 000613999_02 | FALSE |
| 802 | 000087463_03 | FALSE |
| 803 | 001080446_02 | FALSE |
804 rows × 2 columns
Part 7: Conclusions and Aggregation Table¶
dfs = {
'KNN Model': class_report_knn_one_stan_DF.T.drop('model', axis= 0),
'GNB Model': class_report_gnb_one_stan_DF.T.drop('model', axis= 0),
'BNB Model': class_report_bnb_one_stan_DF.T.drop('model', axis= 0),
'DT Model': class_report_dt_one_stan_DF.T.drop('model', axis= 0),
'RF Model': class_report_rf_one_stan_Df.T.drop('model', axis= 0),
'XG Boost Model': class_report_xg_Df.T.drop('model', axis= 0),
'Neural Network Model': class_report_nn_one_stan_dict_DF.T.drop('model', axis= 0),
'Meta Model': classification_report_text_DF.T
}
summary_reports= pd.read_csv('meta_model_AC.csv')
#summary_reports.reset_index(inplace=True)
summary_reports.rename(columns={'index': 'metric'}, inplace=True)
summary_reports.set_index(['model', 'metric'], inplace=True)
summary_reports
| precision | recall | f1-score | support | ||
|---|---|---|---|---|---|
| model | metric | ||||
| KNN | FALSE | 0.851241 | 0.809757 | 0.829981 | 19391.000000 |
| TRUE | 0.816395 | 0.856688 | 0.836056 | 19147.000000 | |
| accuracy | 0.833074 | 0.833074 | 0.833074 | 0.833074 | |
| macro avg | 0.833818 | 0.833222 | 0.833019 | 38538.000000 | |
| weighted avg | 0.833928 | 0.833074 | 0.832999 | 38538.000000 | |
| GNB | FALSE | 0.695028 | 0.689186 | 0.692095 | 19391.000000 |
| TRUE | 0.687882 | 0.693738 | 0.690798 | 19147.000000 | |
| accuracy | 0.691447 | 0.691447 | 0.691447 | 0.691447 | |
| macro avg | 0.691455 | 0.691462 | 0.691446 | 38538.000000 | |
| weighted avg | 0.691478 | 0.691447 | 0.691450 | 38538.000000 | |
| BNB | FALSE | 0.680093 | 0.829818 | 0.747532 | 19391.000000 |
| TRUE | 0.778196 | 0.604690 | 0.680558 | 19147.000000 | |
| accuracy | 0.717967 | 0.717967 | 0.717967 | 0.717967 | |
| macro avg | 0.729144 | 0.717254 | 0.714045 | 38538.000000 | |
| weighted avg | 0.728834 | 0.717967 | 0.714257 | 38538.000000 | |
| DT | FALSE | 0.713122 | 0.853128 | 0.776867 | 19391.000000 |
| TRUE | 0.814342 | 0.652426 | 0.724447 | 19147.000000 | |
| accuracy | 0.753412 | 0.753412 | 0.753412 | 0.753412 | |
| macro avg | 0.763732 | 0.752777 | 0.750657 | 38538.000000 | |
| weighted avg | 0.763411 | 0.753412 | 0.750823 | 38538.000000 | |
| RF | FALSE | 0.721705 | 0.843484 | 0.777857 | 19391.000000 |
| TRUE | 0.808819 | 0.670601 | 0.733253 | 19147.000000 | |
| accuracy | 0.757590 | 0.757590 | 0.757590 | 0.757590 | |
| macro avg | 0.765262 | 0.757043 | 0.755555 | 38538.000000 | |
| weighted avg | 0.764986 | 0.757590 | 0.755696 | 38538.000000 | |
| XG Boost | FALSE | 0.770124 | 0.827910 | 0.797972 | 19391.000000 |
| TRUE | 0.811384 | 0.749726 | 0.779337 | 19147.000000 | |
| accuracy | 0.789065 | 0.789065 | 0.789065 | 0.789065 | |
| macro avg | 0.790754 | 0.788818 | 0.788655 | 38538.000000 | |
| weighted avg | 0.790623 | 0.789065 | 0.788714 | 38538.000000 | |
| Neural Network | FALSE | 0.719339 | 0.824248 | 0.768229 | 19391.000000 |
| TRUE | 0.791164 | 0.674309 | 0.728078 | 19147.000000 | |
| accuracy | 0.749753 | 0.749753 | 0.749753 | 0.749753 | |
| macro avg | 0.755251 | 0.749279 | 0.748153 | 38538.000000 | |
| weighted avg | 0.755024 | 0.749753 | 0.748280 | 38538.000000 | |
| Meta | FALSE | 0.750000 | 0.810000 | 0.780000 | 19391.000000 |
| TRUE | 0.790000 | 0.730000 | 0.760000 | 19147.000000 | |
| accuracy | 0.770000 | 0.770000 | 0.770000 | 38538.000000 | |
| macro avg | 0.770000 | 0.770000 | 0.770000 | 38538.000000 | |
| weighted avg | 0.770000 | 0.770000 | 0.770000 | 38538.000000 | |
| SVM | FALSE | 0.702000 | 0.854000 | 0.770000 | 19391.000000 |
| TRUE | 0.811000 | 0.634000 | 0.712000 | 19147.000000 | |
| accuracy | 0.744000 | 0.744000 | 0.744000 | 0.744000 | |
| macro avg | 0.757000 | 0.744000 | 0.741000 | 38538.000000 | |
| weighted avg | 0.756000 | 0.744000 | 0.741000 | 38538.000000 |
Conclusions:¶
Summary of Findings:¶
- Age and income are the most significant predictors of health insurance ownership.
- The middle-aged group and individuals with higher incomes are more likely to have insurance coverage.
Best Models:¶
- Neural Network and XGBoost delivered the best performance with an accuracy and F1-score of ~80%.
- The KKN achieved a high F1-score of 0.83, probably due overfitting.
- The Neural Network achieved the best score on Kaggle.
Impact of SMOTE:¶
- Addressing class imbalance with SMOTE significantly improved model performance.
Business Gains from the Data Science Effort¶
The business can benefit in the following ways:
- Improved Targeting: By identifying which customers are likely to adopt health insurance, businesses can optimize their marketing efforts. For example: Focusing campaigns on high-potential customer segments based on features like age, income, and housing type.
- Cost Efficiency: Reducing marketing costs by avoiding outreach to customers with low probability of purchasing insurance.
- Customer Insights: Gaining valuable insights about customer demographics and behaviors influencing insurance adoption.
- Revenue Growth: Increasing revenue through precise targeting and converting more customers into health insurance buyers.
Lessons Learned¶
Importance of Feature Selection: Applying methods like RFE and Random Forest ensures the model focuses on the most critical features, improving performance and interpretability.
Dealing with Imbalanced Data: Addressing class imbalance using SMOTE significantly improved the fairness of predictions.
Future Work:¶
- Incorporate additional features or datasets.
- Further optimize neural network architectures.
- Explore advanced ensemble methods for improved accuracy.